JP6914119B2 - combine - Google Patents

Description

The present invention relates to a combine that can operate an auger with a touch panel type monitor.

A grain tank provided on the traveling machine, an auger that is supported by the traveling machine so as to swing up and down and turn left and right, and discharge the grains stored in the grain tank to the outside of the machine, and the auger swings up and down. Conventionally known is a combine described in Patent Document 1, which includes a remote controller for operating movement and left / right turning and a control unit, and allows an operator to operate the up / down swing position and left / right turning position of the auger by the remote controller.

JP-A-2010-104295

In the above document, the position of the auger is determined by providing the touch panel type monitor with an operation unit for operating the movement of the auger and a camera image display unit for outputting the image acquired from the camera provided on the auger side. The movement of the auger can be operated while checking, but the operator can always visually check the position of the auger directly or predict the current position of the auger from the image acquired from the camera while operating the operation unit. Since it is necessary to operate the auger, there is a problem that the operation of the auger may be complicated.

An object of the present invention is to provide a combine that can operate the position of an auger so that an operator can smoothly and easily operate the auger to an intended position.

In order to solve the above problems, the present invention firstly detects the positions of the auger 13 movably supported by the traveling machine body 8, the actuators 18 and 19 for moving and driving the auger 13, and the auger 13. The position detecting means 31 and 32 and a control unit 50 for inputting the detection results by the position detecting means 31 and 32 and controlling the movement of the auger 13 by the actuators 18 and 19 are provided, and the auger 13 is moved. A touch panel type monitor 20 is connected to the control unit 50 so as to be input / output, and the control unit 50 sequentially displays a position display image of the auger 13 detected by the position detection means 31 and 32. It is displayed on the monitor 20, and the operation screen for performing the movement operation of the auger 13 is also displayed in the position display image, and the control unit 50 is a part other than the operation screen on the monitor 20 while the auger 13 is being moved. It is characterized in that it is configured to stop the movement of the auger 13 when a touch operation to the auger 13 is detected.

Second, the movable range of the auger 13 is linearly displayed on the operation screen, and when the control unit 50 detects a touch operation or a slide operation in the movable range, the auger 13 is touch-operated. It is characterized in that it is configured to be moved and driven to a position corresponding to a position or a slide operation position.

Third, the control unit 50 displays the manual operation buttons 46 and 52 that manually move the auger 13 in a predetermined direction on the operation screen, and detects a touch operation on the manual operation buttons 46 and 52. If so, the auger 13 is moved and driven in the predetermined direction.

Fourth, the control unit 50 is characterized in that the change operation unit 39 for changing the movement amount of the auger per one touch operation of the manual operation buttons 46 and 52 is displayed on the operation screen. ..

A position display image that sequentially displays the position of the auger is displayed on the touch panel type monitor, and an operation screen for moving the auger is also displayed in the position display image, so that the operator can use the monitor to display the auger. Workability is improved because the auger can be operated at the same time while checking the position of.

Further, the movable range of the auger is linearly displayed on the operation screen, and when the control unit detects a touch operation or a slide operation in the movable range, the auger is moved to the touch operation position or the slide operation position. According to the one configured to move and drive to the position corresponding to, the range in which the auger can move can be confirmed from the operation screen, and the auger can be moved to the desired position by intuitive operation. Can be done.

Further, according to the one configured to stop the movement of the auger when the control unit detects a touch operation on a portion other than the operation screen on the monitor during the movement drive of the auger, the auger is moving. The emergency stop of the auger can be performed smoothly and easily.

Further, the control unit displays a manual operation button for manually moving the auger in a predetermined direction on the operation screen, and when a touch operation to the manual operation button is detected, the auger is moved to the predetermined direction. According to the moving drive, the position of the auger can be easily adjusted.

According to the change operation unit for changing the movement amount of the auger per one tap operation of the manual operation button displayed on the operation screen, the control unit is a manual operation button depending on the situation. Since the amount of movement of the auger can be changed by, the versatility is further improved.

It is a side view of the self-removing combine to which this invention is applied. It is a top view of the self-removing combine to which this invention is applied. It is a top view which showed the control part. FIG. 4 is a block diagram of the control unit. It is a flow diagram of auger control. (A) and (B) are views showing an auger operation screen of a liquid crystal display unit. (A) is a diagram showing a camera image enlarged screen of the liquid crystal display unit, and (B) is a diagram showing a standard screen of the liquid crystal display unit. It is a figure which showed the camera small image display screen of the liquid crystal display part. It is a figure which showed the auger operation screen of the liquid crystal display part in another embodiment.

1 and 2 are a side view and a plan view of a head-feeding combine to which the present invention is applied, and FIG. 3 is a plan view showing a control unit. In the illustrated combine, the threshing section 3 is provided on the left half of the machine frame 2 supported by the pair of left and right crawler type traveling devices 1, 1, and the control section 4 is arranged on the front side of the right half of the body frame 2. The traveling machine body 8 is formed by providing the cabin 6 and the grain tank 7 is provided on the rear side of the cabin 6, and the pretreatment unit 9 for cutting the grain harvester can be driven up and down in front of the traveling machine body 8. It supports the connection.

During the forward traveling of the traveling machine body 8, the grain culms cut by the pretreatment unit 9 are rearwardly transported to the front side of the threshing section 3 of the traveling machine body 8 by the transport device 11 of the pretreatment unit 9, and the feed chain 12 in the front-rear direction. Passed to. The culm that is rearwardly transported along the threshing section 3 by the feed chain 12 is unwound (threshed) by a handling cylinder (not shown) that is rotationally driven in the threshing section 3 to become straw. The culm that has become the straw is discharged from the rear end of the eight traveling machines to the outside of the machine. On the other hand, the processed product that has been threshed is sorted into grains such as paddy and other discharges such as straw waste, and the grains are stored in the grain tank 7 and the discharges are the traveling machine body 8. It is discharged from the rear end to the outside of the machine.

While the traveling machine 8 is stopped, the grains contained in the grain tank 7 form an opening on the right side of the rear part of the traveling machine 8 so as to face downward toward the tip end of the auger 13 in which the base end is supported. It is discharged to the outside of the machine from the discharged port 14.

The auger 13 is supported on the right side of the rear end portion of the traveling machine body 8 in a vertical direction vertically supported so as to be rotatable around its own axis, and vertically swingable on the upper end side of the vertical cylinder 16. It is composed of a discharge cylinder 17 which is formed and extends linearly toward the tip side. Further, on the upper end side of the vertical cylinder 16, an auger swivel motor (actuator) 18 that swivels the discharge cylinder left and right around the vertical cylinder 16 and an auger elevating cylinder (actuator) that swings the discharge cylinder 17 up and down. 19 is provided.

That is, the auger 13 can rotate the discharge cylinder 17 horizontally and horizontally by rotating the vertical cylinder 16 as an axis, and also causes the discharge cylinder 17 to swing up and down with respect to the vertical cylinder 16. Can be done. The specific operation (control) of the movement (turning and raising / lowering operation) of the auger 13 will be described later.

Further, the grains in the grain tank 7 are lifted and conveyed to the base end side of the discharge cylinder 17 by the vertically rising spiral (not shown) supported in the vertical cylinder 16 to the base end side of the discharge cylinder 17. The transported grains are transported to the discharge port 14 formed on the tip side of the discharge cylinder 17 by a discharge spiral (not shown) extending in the axial direction in the discharge cylinder 17, and are transported from the discharge port 14 to the outside of the machine. Is discharged.

Further, on the discharge port 14 side of the auger 13, an auger tip camera 21 capable of photographing a state in which grain culms are discharged from the discharge port 14 of the auger 13 is provided, and an image taken by the auger tip camera 21 can be captured. It is configured so that it can be confirmed from the liquid crystal display unit 20 on the control unit 4 side, which will be described later. As a result, the operator can confirm from the inside of the cabin 6 that the grains are discharged from the discharge port 14 of the auger 13 to an arbitrary discharge point. The specific display mode will be described later.

The control unit 4 in the cabin 6 includes a seat 22 on which the operator sits, a traveling main speed change lever 23 arranged on the side of the seat 22, and a multi-steering lever (pre-processing unit) arranged on the front right side of the seat 22. Lifting and lowering operation, aircraft steering operation) 24, a liquid crystal display (monitor) 20 arranged on the front front side of the seat 22, and a wired remote controller 27 supported behind the seat 22 and capable of operating the auger 13. (See FIG. 3). The wired remote controller 27 may be a wireless remote controller 26, and the wireless remote controller 26 can be operated from outside the machine. Further, both the wired remote controller 27 and the wireless remote controller 26 may be provided so that both can be used. Further, instead of the wired remote controller 27, an auger operating tool may be provided on the operation panel portion on the rear side or the side of the seat 22.

Further, the liquid crystal display unit 20 is configured so that the screen displayed on the liquid crystal panel 28 can be switched to a plurality of patterns, such as a direction indicator, ON / OFF of a work light, an engine speed, a vehicle speed, and fuel. A standard screen that displays basic information such as the remaining amount, engine load factor, and the amount of paddy in the grain tank, an auger operation screen that displays the left / right turning position and up / down swing position of the auger, and an image acquired from the auger camera. Can be switched to the output camera display screen.

Further, the liquid crystal display unit 20 is provided with a touch panel 29 capable of inputting information by touch operation, and when a predetermined portion is touch-operated, the same as the wireless remote controller 26 (wired remote controller 27). It is configured so that the auger 13 can be operated. The specific configuration of the left / right turning operation and the up / down swing operation of the auger 13 via the liquid crystal display unit 20 will be described later.

Incidentally, the liquid crystal display unit 20 may be provided on the front side of the seat 22 on the control unit 4 side, or may be configured so that it can be confirmed and operated from the liquid crystal display unit provided on a tablet terminal (not shown) or the like. ..

Next, auger control by remote control operation will be described with reference to FIGS. 4 and 5. FIG. 4 is a block diagram of the control unit. On the input side of the control unit 50, the wireless remote controller 26 connected to the communication unit 30 provided in the control unit 50, the wired remote controller 27, the auger tip camera 21, and the left / right turning position of the auger 13 are located. The auger turning position detection sensor (position detecting means) 31 to detect, the auger elevating position detecting sensor (position detecting means) 32 to detect the vertical swing position of the auger 13, and the power transmitted to the rising spiral and the discharging spiral. The discharge clutch detection sensor 33 that detects the state of the discharge clutch that interrupts the operation is connected.

On the other hand, on the output side of the control unit 50, the auger swivel motor 18, the auger elevating cylinder 19, and the discharge clutch motor 34 that operates the engagement and disengagement of the discharge clutch are connected.

Further, the touch panel type liquid crystal display unit 20 is connected to the control unit 50 so that input and output can be performed. Specifically, the liquid crystal display unit 20 has a liquid crystal panel 28 for outputting various screens and the liquid crystal. It is provided with a touch panel 29 for inputting a touch operation or the like to the panel 28.

As a result, the control unit 50 is configured to be able to execute auger control for operating the swivel operation and vertical swing (movement) of the auger by using the wireless remote controller 26, the wired remote controller 27, or the liquid crystal display unit 20. ing.

Next, the configuration of the auger control will be described with reference to FIG. The left-right turning operation and the up-down swing operation of the auger 13 are executed based on any operation of the wireless remote controller 26, the wired remote controller 27, or the touch panel 29 of the liquid crystal display unit 20.

FIG. 5 is a flow diagram of auger control. When the auger control processing flow is started, the process proceeds to step S1. In step S1, it is confirmed whether or not the operation of the wireless remote controller 26 has been performed, and if the operation of the wireless remote controller 26 is confirmed, the process proceeds to step S2. In step S2, the wireless remote controller control in which the left / right turning position and the vertical swinging position of the auger are operated according to the operation of the wireless remote controller 26 is executed, and then the process is returned.

On the other hand, if the operation of the wireless remote controller 26 is not confirmed in step S1, the process proceeds to step S3. In step S3, it is confirmed whether or not the wired remote controller 27 has been operated, and if the operation of the wired remote controller 27 is confirmed, the process proceeds to step S4.

In step S4, the wired remote controller control in which the left / right turning position and the vertical swinging position of the auger are operated according to the operation of the wired remote controller 27 is executed, and then the process is returned.

On the other hand, if the operation of the wired remote controller 27 is not confirmed in step S3, the process proceeds to step S5. In step S5, it is confirmed whether or not the touch panel 29 of the liquid crystal display unit 30 has been operated, and if the operation of the touch panel 29 is confirmed, the process proceeds to step S6.

In step S6, the touch panel control in which the left / right turning position and the up / down swinging position of the auger 13 are operated in response to the touch operation of the touch panel 29 of the liquid crystal display unit 20 is executed, and then the process is returned. A specific example of the touch panel control will be described later.

On the other hand, if the operation of the touch panel 29 of the liquid crystal display unit 20 is not confirmed in step S5, the process proceeds to step S7. In step S7, the operation control of the auger 13 is stopped, and then the process is returned.

From the above, in the auger control, the left / right turning operation and the up / down swing operation of the auger can be operated from any of the operating tools of the wireless remote controller, the wired remote controller, and the touch panel, while each operating tool operates at the same time. If so, the operation is prioritized in the order of the wireless remote controller, the wired remote controller, and the touch panel.

According to this, the operation of the wireless remote controller or the wired remote controller, which is not used except when clearly operating the auger, is prioritized over the touch panel, which is relatively easy to touch by mistake. It is possible to prevent the situation that is done more efficiently.

Next, a specific example of touch panel control will be described with reference to FIGS. 6 to 8. 6 (A) and 6 (B) are views showing an auger operation screen of the liquid crystal display unit, and FIG. 7 (A) is a view showing a camera image enlarged screen of the liquid crystal display unit. B) is a diagram showing a standard screen of the liquid crystal display unit, and FIG. 8 is a diagram showing a camera small image display screen of the liquid crystal display unit.

As shown in the figure, the liquid crystal display unit 20 has a switching operation button 36 as an icon (image) for switching the screen output to the liquid crystal panel 28 by touch operation on one of the left and right sides (left in the illustrated example). Is always displayed. Specifically, the standard display switching button 36A, which is an icon (image) for switching the display of the liquid crystal panel 28 to the standard screen, the auger display switching button 36B for switching the display of the liquid crystal panel 20 to the auger operation screen, and the liquid crystal panel. On the camera display switching button 36D that switches to the camera enlarged display screen that outputs the image acquired from the auger camera 21 in a large size, and on the camera display screen that simultaneously displays the image acquired from the auger camera 21 and the operation position of the auger. A camera small display switching button 36C for switching is arranged.

As a result, when the touch operation of each switching button 36 is detected by the touch panel 29, the control unit 50 switches the screen displayed on the liquid crystal panel 28 to the display screen corresponding to the switching button 36 and touches the screen. The operated changeover button 36 is configured to be highlighted (lit) in a predetermined color that is easy to identify. Hereinafter, each display screen will be described.

As shown in FIGS. 6A and 6B, the auger operation screen shows the turning range of the auger 13 capable of turning left and right and the turning position of the auger 13 in a model view of a traveling machine in a plan view. The position display unit 37, the vertical swing range of the auger 13 that can swing up and down, and the vertical position display unit 38 that shows the vertical position of the auger in a model diagram of a rear view of the traveling machine body are arranged side by side. .. Further, on the lower side of the liquid crystal display unit 20, a movement amount gauge 39 for displaying the movement amount of the auger 13 by a manual operation button described later, and a work of discharging grains in the grain tank to the outside of the machine by the auger 13 are performed. The discharge button 41 to be executed is displayed (see FIGS. 6A and 6B).

The vertical position display unit 38 shows the vertical swing range of the machine model image 42, which is a model of the traveling machine viewed from the rear, and the auger unit 43, which swings up and down about the rear upper end side of the machine model image 42. The vertical range display image 44 and the vertical manual operation button 46, which is an image arranged on the outer peripheral side of the vertical range display image 44 and capable of raising and lowering the auger 13 by a touch operation, are displayed.

The machine model image 42 is configured such that the auger portion 43 that swings up and down is moved to a vertical swing position that is interlocked with the actual vertical swing position of the auger 13 detected by the auger lift position detection sensor 33. The moving range on the discharge port (tip) side of the auger portion 43 is configured to always fit at any position on the vertical range display image 44.

The vertical range display image 44 is an image showing the vertical position of the auger unit 43, and a plurality of display units 44a displayed as a circular image are arranged along the movement locus of the auger unit 43 (five in the illustrated example). ) It is configured by arranging it in an arc shape, and indicates a range in which the auger 13 can swing up and down.

As a result, the control unit 50 emphasizes (lights) the display unit 44a at the position linked to the vertical swing position of the auger 13 detected by the auger elevating position detection sensor 32, and the auger of the aircraft model image 42. The display position is sequentially updated so that the unit 43 is displayed at the position of the highlighted display unit 44a. With this configuration, the operator can smoothly and easily confirm the current vertical position of the auger 13 from the liquid crystal panel 28.

The vertical range display image 44 is configured to display only the range in which the auger can be moved up and down, and the vertical position of the auger 13 is displayed only at the position of the auger portion 43 of the aircraft model image 42. There may be.

Further, the vertical range display image 44 also serves as an operation unit that performs an automatic elevating operation for operating the vertical swing position of the auger 13, and a position (display unit) on the vertical range display unit 44 by the touch panel 29. It is configured so that it can detect whether the 44a) has been touch-operated.

As a result, when the touch operation of the vertical range display image 44 is detected, the control unit 50 touches the auger 13 with the vertical range display image 44 by the auger elevating cylinder 19 (display unit). It is configured to automatically move up and down to the elevating position corresponding to 44a). With this configuration, the operator can swing the auger 13 up and down with an intuitive one-touch operation.

Further, the control unit 50 may have touch-operated a portion other than the vertical range display image 44 on the touch panel 29 while the auger 13 is being raised and lowered by the touch operation of the vertical range display image 44. If detected, the auger 13 is configured to be able to stop the elevating operation in an emergency.

The up / down manual operation button 46 is formed by a pair of arrows pointing in opposite directions, and includes an upward swing operation button 46A that swings the auger upward and a downward swing operation button 46B that swings the auger downward. Have. Further, the vertical manual operation button 46 is displayed so as to be arranged along the tangential direction of the arc-shaped vertical range display image 44, and the auger portion 43 (and the highlighted display) in the liquid crystal panel 28 is displayed. In conjunction with the portion 44a), the vertical positions of the pair of arrows are also configured to move. That is, the positions of the pair of arrows are displayed so that the display unit 44a on which the auger unit 43 is always located is the contact point of the arc-shaped vertical range display unit 44 (see FIGS. 6A and 6B).

As a result, when the touch operation of the upward swing operation button 46A is detected, the control unit 50 uses the auger elevating cylinder 19 to perform the movement amount set by the movement amount gauge 39. When the auger 13 is oscillated upward and the touch operation of the downward oscillating operation button 46B is detected, the auger 13 is passed through the auger elevating cylinder 19 by a predetermined amount of movement similarly set. Was configured to swing downward. The up / down manual operation button 46 may be configured so that the amount of movement that is swung up and down can be adjusted according to the time of touch operation.

According to this configuration, when the operator moves the auger 13 up and down by touching the liquid crystal display unit 20, the position of the vertical manual operation unit 46 always displays the current position of the auger 13. Since it is arranged in the vicinity of the display unit 44a of the vertical range display image 44 in which the auger 13 is located, the position of the vertical manual operation button 46 can be easily visually recognized, and the auger 13 can be moved up and down more intuitively.

The turning position display unit 37 indicates a turning range showing a machine model image 48, which is a model of a traveling machine viewed from a plan view, and an auger unit 49 that rotates around the rear right end of the machine model image 48. A display image 51 and a rotation manual operation button 52, which is an image arranged on the outer peripheral side of the rotation range display image 51 and capable of rotating the auger 13 by a touch operation, are displayed.

The aircraft model image 48 is configured such that the auger portion 49 that turns left and right is moved to a left and right turning position that is linked to the actual left and right turning position of the auger 13 detected by the auger turning position detection sensor 31. The moving range of the auger portion 43 on the discharge port (tip) side is configured to be always stopped at any position on the turning range display image 51.

The turning range display image 51 is an image showing the turning position of the auger unit 49, and a plurality of display units 51a displayed as a circular image are arranged along the movement locus of the auger unit 49 (17 in the illustrated example). ) It is configured by arranging in an arc shape, and indicates a range in which the auger 13 can turn left and right.

Specifically, the turning range display image 51 is arranged clockwise from the display unit 51a1 indicating the initial position where the tip of the auger unit 49 is arranged on the left front side of the aircraft model image 48, and is arranged in the auger unit 49. The display units 51a are arranged at predetermined intervals up to a position (about 300 °) at which the tip of the is substantially perpendicular to the left side with respect to the traveling direction. As a result, the auger portion 49 of the aircraft model image 48 is displayed so as to be turned within the range of the turning range display image 51 displayed in an arc shape.

As a result, the control unit 50 highlights (lights) the display unit 51a at the position linked to the left / right turning position of the auger 13 detected by the auger turning position detection sensor 31, and also highlights (lights) the auger of the aircraft model image 48. The display position is sequentially updated so that the unit 49 is displayed at the position of the highlighted display unit 51a. At this time, the position of the auger 13 may be displayed at the display position of the auger unit 49 without highlighting the display unit 51a.

Further, the turning range display image 51 also serves as an operation unit that performs an automatic turning operation for operating the left / right turning position of the auger 13, and any position (display unit 51a) on the turning range display unit 51 by the touch panel 29. ) Is configured to detect whether it has been touch-operated.

As a result, when the touch operation of the turning range display image 51 is detected, the control unit 50 touches the turning range display image 51 by the auger 13 and the turning range display image 51 (lighting unit). It is configured to automatically turn left and right to the turning position corresponding to 51a). With this configuration, the operator can perform a left-right turning operation of the turning position of the auger 13 with an intuitive one-touch operation.

Further, the control unit 50 may have touch-operated a portion other than the turning range display image 51 on the touch panel 29 while the auger 13 is turning by the touch operation of the turning range display image 51. If detected, the auger 13 is configured to be able to stop the turning operation in an emergency.

Incidentally, the auger 13 prevents the auger 13 and the cabin 6 from coming into contact with each other when the auger 13 is turned clockwise from the display unit 51a1 at the initial position where the discharge port 14 is arranged on the front left side of the traveling machine body 7. Therefore, the turning operation is started in a state where the auger 13 is swung upward to the highest position, and the turning operation of the auger 13 is stopped at the position where the auger 13 and the cabin 6 wrap in a plan view. Is configured so that

That is, similarly, in the turning range display image 51, the display unit 51a is not displayed in the range corresponding to the range in which the turning operation of the auger 13 cannot be stopped, and the turning display image 51 is touch-operated. It is configured so that the automatic turning operation of the auger 13 cannot be performed (see FIGS. 6A and 6B).

Like the up / down manual operation button 46, the turning manual button 52 is formed by a pair of arrows pointing in opposite directions, and the left turning operation button 52A for operating the auger 13 to the left and the auger 13 to operate the auger 13 to the right. It has a right turn operation button 52B to be operated. Further, the turning manual operation button 52 is displayed so as to be arranged along the tangential direction of the arc-shaped turning range display image 51, and is interlocked with the auger portion 49 that turns in the liquid crystal panel 28. The vertical position of the pair of arrows is also configured to move.

As a result, when the touch operation of the left turn operation button 52A is detected, the control unit 50 moves the auger via the auger swing motor 18 by the amount of movement set by the movement amount gauge. When the left turning operation is performed and the touch operation of the right turning operation button 52B is detected, the auger 13 is operated to turn right via the auger turning motor 18 by the amount of movement similarly set. It was configured as.

According to this configuration, when the operator swivels the auger 13 by touching the liquid crystal display unit 20, the position of the swivel manual operation button 52 always displays the current position of the auger 13. Since it is arranged in the vicinity of the position display unit 51a, the position of the turning manual operation button 52 can be easily visually recognized, and the turning operation of the auger 13 can be performed more intuitively.

The movement amount gauge 39 is a rectangular meter extending in the left-right direction displayed on the lower side of the liquid crystal panel 28, and is operated by the operation of the vertical manual operation button 46 or the turning manual operation button 52. The movement amount of the auger 13 is displayed. Further, the movement amount gauge 29 can operate the gauge amount between the minimum (MIN) at the left end and the maximum (MAX) at the right end of the gauge by detecting a touch operation or a slide operation by the touch panel 29. It is configured so that it can be done.

In the illustrated example, when the gauge is operated to the maximum value (right end side), the control unit 50 displays the vertical range display image 44 adjacent to the vertical range display image 44 by one touch operation of the vertical manual operation button 46. It is configured to move between the portions 44a, and is configured to move between adjacent display portions 51a of the turning range display image 51 by one touch operation of the turning manual operation button 52.

As a result, the control unit 50 can finely set the movement amount of the auger whose movement is operated by the manual operation buttons 46 and 52 by adjusting the gauge amount of the movement amount gauge 39, and thus is versatile. Is improved.

That is, the manual operation buttons 46 and 52 are operated so that the gauge amount of the movement amount gauge 39 becomes small, and the operating amount of the auger 13 by one touch operation of each of the manual operation buttons 46 and 52 is finely set. As a result, it is possible to perform a fine adjustment operation of the operation position of the auger 13 which is difficult by the touch operation of the vertical range display image 44 and the turning range display image 51.

The discharge button 41 is an icon (image) displayed on the lower side of the vertical position display unit 38, and is touch-operated to drive an ascending spiral, a discharge spiral, or the like in the auger 13. It is possible to switch between a discharge state in which the grains stored in the grain tank 7 are discharged from the discharge port 14 of the auger 14 to the outside of the machine, and a discharge stop state in which the ascending spiral and the discharge spiral are stopped.

That is, when the touch operation of the discharge button 41 is detected in the discharge stopped state, the control unit 50 connects the discharge clutch via the discharge clutch motor 34 to the ascending spiral and the discharge spiral side. The power is transmitted, and the state is switched to the discharge state in which the grains in the grain tank 7 are discharged from the discharge port 14. When the touch operation of the discharge button 41 is detected in the discharge state, the discharge clutch is disengaged via the discharge clutch motor 34 to cut off the power transmission to the rising spiral and the discharge spiral side. It can be switched to the stopped state.

As shown in FIG. 7B, the standard screen can display various information for detecting the state of the traveling machine body during running, the state in the grain tank, and the like. Specifically, the standard information display unit 61 showing information such as direction indicators, ON / OFF of work lights, engine speed, vehicle speed, remaining fuel amount, engine load factor, and amount of paddy in the grain tank is displayed. NS.

As shown in FIG. 7A, the camera magnified display screen displays a video magnified display unit 62 to which an image captured by the auger tip camera 21 is output. As a result, the operator uses the wired remote controller 27 or the like while confirming that the discharge port 14 is operated to a predetermined discharge position from the liquid crystal panel 28 switched to the camera enlarged display screen on the control unit 4 side. The auger 13 can be operated.

Further, as the image output by the image magnifying display unit 62, in addition to the auger tip camera 21, an image of a threshing transfer camera (not shown) provided at a position where the transfer / discharge status of the grain culm in the threshing unit 3 can be confirmed. Alternatively, it may be configured to be provided on the rear end side of the traveling machine 8 so that it can output an image of a rear camera (not shown) that can check the discharge status of straw.

As shown in FIG. 8, in the small camera display screen, an image display unit 63 for outputting an image taken by the auger tip camera is displayed on the right side of the liquid crystal panel, and a simple image display unit 63 is displayed on the center side of the liquid crystal panel. The swivel position display unit 64 and the simple vertical position display unit 65 are displayed side by side.

Similar to the turning position display unit 51, the simple turning position display unit 64 displays the turning position of the auger 13, while the display unit displayed in a continuous linear shape also serves as an auger operation button. However, the auger 13 is configured so that the automatic turning operation of the auger 13 cannot be performed even if the touch operation is performed. Further, the simple vertical position display unit 65 also displays the vertical position of the auger 13 in the same manner as the vertical position display unit 44, and automatically raises and lowers the auger 13 by touch operation of the linearly displayed display unit. It is configured so that it cannot be operated.

In the simple turning position display unit 64 and the simple vertical position display unit 65, the linearly displayed display unit is touch-operated in the same manner as the turning position display unit 51 and the vertical position display unit 44. It may be configured so that the auger 13 can be swiveled or swung up and down.

As a result, according to the liquid crystal panel switched to the camera small display screen, the operation position of the auger 13 and the image acquired by the auger tip camera 21 can be confirmed at the same time, so that the position information of the auger 13 can be confirmed. The discharge location can be easily grasped, and the auger operation by the wired remote controller 27 can be smoothly executed.

Next, based on FIG. 9, another embodiment of the touch panel control will be described with respect to the differences from the above-mentioned example. FIG. 9 is a diagram showing an auger operation screen of the liquid crystal display unit in another embodiment.

As shown in FIG. 9, the auger operation screen in another embodiment shows a turning position display unit in which the turning range of the auger 13 that can be turned left and right and the turning position of the auger 13 are shown in a model diagram of a traveling machine in a plan view. 66, a swing range capable of swinging up and down of the auger 13, and a vertical position display unit 67 showing the vertical position of the auger in a model diagram of a rear view of the traveling machine body are arranged side by side. Further, on the lower right side of the liquid crystal display unit 20, a manual operation button 41 for operating the left-right rotation of the auger 13 is displayed, and a discharge button 41 for executing the work of discharging the grains in the grain tank 7 to the outside of the machine by the auger 13 is displayed. There is.

The vertical position display unit 67 shows the vertical swing range of the machine model image 42, which is a model of the traveling machine viewed from the rear view, and the auger unit 43, which swings up and down about the rear upper end side of the machine model image 42. The upper and lower range display image 68 is displayed.

The vertical range display image 68 is a display unit represented by a continuous line showing a range in which the auger unit 43 can swing up and down, and is displayed in an arc shape along the movement locus of the auger unit 43. , The range in which the auger 13 can swing up and down is shown.

Further, the vertical range display image 68 also serves as an operation unit that performs an automatic lifting operation for operating the vertical swing position of the auger 13, and the control unit 50 is on the vertical range display image 68 by the touch panel 29. It is configured so that the auger 13 can be automatically moved up and down to the position operated on the vertical range display image 68 based on the detection of the touch operation and the slide operation.

Further, on the lower side of the vertical range display image 68, the vertical manual operation buttons 71A and 71B are displayed. The display position of the vertical manual operation buttons 71A and 71B is fixed regardless of the vertical position of the auger portion 43.

The turning position display unit 66 shows a turning range display image 69 showing a turning range of an aircraft model image 48, which is a model of a traveling aircraft viewed from a plan view, and an auger portion 49, which rotates around the rear side of the aircraft model image 48. Is displayed.

The turning range display image 69 is a display unit represented by a continuous line showing a range in which the auger unit 49 can be turned left and right, and is displayed in an arc shape along the movement locus of the auger unit 49. The range in which the auger 13 can be turned left and right is displayed.

Further, the turning range display image 69 also serves as an operation unit that performs an automatic turning operation for operating the left / right turning position of the auger 13, and the control unit 50 is touched on the turning range display image 69 by the touch panel 29. The auger 13 is configured to detect an operation or a slide operation and automatically rotate the auger 13 to the operated position on the turning range display image 68 based on the detection.

Further, on the lower side of the turning range display image 69, turning manual operation buttons 72A and 72B are displayed. The display position of the turning manual operation buttons 72A and 72B is fixed regardless of the vertical position of the auger portion 43.

8 Traveling machine 13 Auger 18 Auger swivel motor (actuator)
19 Auger elevating cylinder (actuator)
20 Liquid crystal display (monitor)
31 Auger swivel position detection sensor (position detection means)
32 Auger elevating position detection sensor (position detection means)
39 Movement amount gauge (change operation unit)
46 Up and down manual operation buttons (manual operation buttons)
52 Swivel manual operation button (manual operation button)
50 Control unit

Claims (4)

The auger (13), which is movably supported by the traveling aircraft (8),
Actuators (18, 19) that move and drive the auger (13) and
Position detecting means (31, 32) for detecting the position of the auger (13), and
A control unit (50) for inputting a detection result by the position detecting means (31, 32) and controlling the movement of the auger (13) by the actuator (18, 19) is provided.
A touch panel monitor (20) for moving the auger (13) is connected to the control unit (50) so as to be input / output.
The control unit (50) displays a position display image that sequentially displays the position of the auger (13) detected by the position detection means (31, 32) on the monitor (20), and in the position display image. Also displays an operation screen for moving the auger (13) .
When the control unit (50) detects a touch operation on a portion other than the operation screen on the monitor (20) during the movement drive of the auger (13), the control unit (50) stops the movement of the auger (13). The combined combine. The movable range of the auger (13) is displayed in a line on the operation screen.
When the control unit (50) detects a touch operation or a slide operation in the movable range, the control unit (50) is configured to move and drive the auger (13) to a position corresponding to the touch operation position or the slide operation position. The combine according to claim 1. The control unit (50) displays a manual operation button (46, 52) for manually moving the auger (13) in a predetermined direction on the operation screen, and displays the manual operation button (46, 52) on the operation screen. The combine according to claim 1 or 2 , wherein when a touch operation is detected, the auger (13) is moved and driven in the predetermined direction. Wherein the control unit (50), the manual operation button once changing operation section for changing the amount of movement of the auger per tap operation on the (46, 52) and (39), according to claim 3 which is displayed on the operation screen The combine described in.

Images